CN211841314U - Magnetic deburring device for titanium electrode plate - Google Patents

Abstract

A magnetic deburring device for a titanium electrode plate comprises a grinding barrel, a magnetic force generator capable of generating an alternating magnetic field, two parallel slide rails, two slide rods and a blanking platform; the grinding barrel is placed at the magnetic field end of the magnetic force generator, and two rotating pins are symmetrically arranged on the barrel wall on the outer side of the grinding barrel; the head ends of the two sliding rails are arranged on the end face of the magnetic field end of the magnetic force generator and are respectively positioned on two sides of the polishing barrel, the tail ends of the two sliding rails extend out of the end face, the bottom ends of the two sliding rods are respectively in sliding connection with one sliding rail correspondingly, and the top ends of the two sliding rods are respectively provided with a rotating pin hole which is correspondingly matched and inserted with the rotating pin; the unloading platform is located the below of slide rail, and the mounting end fixed mounting of unloading platform is in the side of magnetic force generator, and the slide rail is good at to the unloading end of unloading platform, and the storage bucket has been placed to this unloading end top surface, and this device can make things convenient for the workman to operate.

Description

Magnetic deburring device for titanium electrode plate

Technical Field

The utility model belongs to the technical field of the titanium plate electrode technique of polishing and specifically relates to a titanium plate electrode magnetic force burring device is related to.

Background

As is known, a titanium electrode plate is manufactured by placing a titanium plate in a stamping die, and then stamping the stamping die by a stamping machine to finally form the titanium electrode plate with a specific shape, but the plate body of the titanium electrode plate after stamping has some burrs and burrs, so that the titanium electrode plate needs to be fully polished by a magnetic polisher; although a traditional magnetic grinding machine can achieve a good grinding effect, a grinding barrel is directly placed on a magnetic force generator, when a titanium electrode plate is ground, one mode is that workers select the titanium electrode plate from the barrel one by one, but the magnetic grinding machine cannot work when the workers select the titanium electrode plate, so that the production efficiency during continuous production is affected, the other mode is that the grinding barrel is detached and the titanium electrode plate and a grinding steel needle in the barrel are poured out, then the grinding barrel is placed back to the magnetic force generator for next production, and the methods increase the workload of the workers, are complex in implementation process, and finally lead to low implementation efficiency; therefore, in summary, there is a need in the market for a magnetic deburring apparatus that is easy for workers to operate.

Disclosure of Invention

In order to overcome the deficiency in the background art, the utility model discloses a titanium electrode board magnetic force burring device.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a magnetic deburring device for a titanium electrode plate comprises a grinding barrel, a magnetic force generator capable of generating an alternating magnetic field, two parallel slide rails, two slide rods and a blanking platform; the grinding barrel is placed at the magnetic field end of the magnetic force generator, and two rotating pins are symmetrically arranged on the barrel wall on the outer side of the grinding barrel; the head ends of the two sliding rails are arranged on the end face of the magnetic field end of the magnetic force generator and are respectively positioned on two sides of the polishing barrel, the tail ends of the two sliding rails extend out of the end face, the bottom ends of the two sliding rods are respectively in sliding connection with one sliding rail correspondingly, and the top ends of the two sliding rods are respectively provided with a rotating pin hole which is correspondingly matched and inserted with the rotating pin; the blanking platform is positioned below the sliding rail, the mounting end of the blanking platform is fixedly mounted on the side surface of the magnetic force generator, the blanking end of the blanking platform is longer than the sliding rail, and the top surface of the blanking end is provided with a material receiving barrel;

preferably, a filter screen for the steel needle to pass through is arranged in the material receiving barrel;

preferably, the filter screen is conical, the tip end of the filter screen faces the barrel opening, and the area of a filter hole of the filter screen is smaller than that of the titanium electrode plate;

preferably, the tail end of the sliding rail is provided with a block;

preferably, the bottom surface of the tail end of the sliding rail and the bottom surface of the blanking end of the blanking platform are both provided with supporting columns.

Due to the adoption of the technical scheme, the utility model discloses following beneficial effect has:

the utility model discloses a titanium electrode plate magnetic force burring device, the alternating magnetic field that generates through the magnetic force generator can make the steel needle in the bucket of polishing produce irregular jumping, because the steel needle has the characteristics that the diameter is little and length is short, so these steel needles can carry out effectual polishing to the surface of titanium electrode piece and the downthehole wall of trompil in the process of jumping, finally reach the purpose of carrying out comprehensive burring to the titanium electrode piece; and move along the slide rail through the slide bar, then can drive the bucket of polishing and slide to receiving the storage bucket department, then will polish the bucket and empty and can pour titanium plate electrode and the steel needle of polishing into receiving the storage bucket, push back the normal position with the bucket of polishing at last and add new steel needle and the titanium plate electrode of polishing and can carry out the operation of polishing next time.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1. polishing the barrel; 1.1, rotating a pin; 2. a magnetic force generator; 3. a slide rail; 3.1, blocking; 4. a slide bar; 5. a blanking platform; 6. a material receiving barrel; 6.1, a filter screen; 7. and (4) a support column.

Detailed Description

The invention will be explained in more detail by the following examples, which disclose the invention and are intended to protect all technical improvements within the scope of the invention.

The magnetic deburring device for the titanium electrode plate, which is described in the attached drawing 1, comprises a grinding barrel 1, a magnetic force generator 2 capable of generating an alternating magnetic field, two parallel slide rails 3, two slide rods 4 and a blanking platform 5; the grinding barrel 1 is placed at the magnetic field end of the magnetic force generator 2, two rotating pins 1.1 are symmetrically arranged on the outer barrel wall of the grinding barrel 1, and the grinding barrel 1 can rotate by inserting the rotating pins 1.1 into rotating pin holes at the top end of the sliding rod 4; the head ends of the two slide rails 3 are arranged on the end face of the magnetic field end of the magnetic force generator 2 and are respectively positioned on two sides of the polishing barrel 1, the tail ends of the two slide rails 3 extend out of the end face, and the tail ends of the slide rails 3 are provided with blocking blocks 3.1 according to needs, wherein the blocking blocks 3.1 can prevent the slide rods 4 from sliding out of the slide rails 3;

the bottom ends of the two sliding rods 4 are respectively and correspondingly connected with a sliding rail 3 in a sliding manner, and the top ends of the two sliding rods 4 are respectively provided with a rotating pin hole which is correspondingly matched and inserted with the rotating pin 1.1; the blanking platform 5 is positioned below the slide rail 3, the mounting end of the blanking platform 5 is fixedly mounted on the side surface of the magnetic force generator 2, the blanking end of the blanking platform 5 is longer than the slide rail 3, the material receiving barrel 6 is placed on the top surface of the blanking end, the material receiving barrel 6 can receive a polished titanium electrode plate and a polished steel needle, so that the titanium electrode plate and the polished steel needle are added into the polishing barrel 1 again to perform a new polishing operation, and finally the polishing device can continuously perform the polishing operation, thereby increasing the polishing efficiency of the titanium electrode plate, and the polishing barrel 1 is very convenient to rotate, so that the work of workers is easier and more labor-saving, in addition, a filter screen 6.1 for the steel needle to pass through is arranged in the material receiving barrel 6, the polished steel needle and the titanium electrode plate can be separated through the filter screen 6.1, thereby facilitating the sorting of the titanium electrode plate, and the filter screen 6.1 is conical as required, the tip end of the filter screen 6.1 faces the barrel opening, the area of a filter hole of the filter screen 6.1 is smaller than that of the titanium electrode plate, and when a mixture of the titanium electrode plate and the polishing steel needle in the polishing barrel 1 enters the material receiving barrel 6, the filter screen 6.1 can more effectively separate the titanium electrode plate from the polishing steel needle; in addition, the bottom surface of the tail end of the sliding rail 3 and the bottom surface of the blanking end of the blanking platform 5 are both provided with supporting columns 7, and the supporting columns 7 enable the structure of the polishing device to be firmer.

The part of the utility model not detailed is prior art.

Claims (5)

1. The utility model provides a titanium plate electrode magnetic force burring device which characterized by: comprises a grinding barrel (1), a magnetic force generator (2) capable of generating an alternating magnetic field, two parallel slide rails (3), two slide rods (4) and a blanking platform (5); the grinding barrel (1) is placed at the magnetic field end of the magnetic force generator (2), and two rotating pins (1.1) are symmetrically arranged on the outer barrel wall of the grinding barrel (1); the head ends of the two sliding rails (3) are arranged on the end face of the magnetic field end of the magnetic force generator (2) and are respectively positioned at two sides of the polishing barrel (1), the tail ends of the two sliding rails (3) extend out of the end face, the bottom ends of the two sliding rods (4) are respectively in corresponding sliding connection with one sliding rail (3), and the top ends of the two sliding rods (4) are respectively provided with rotating pin holes which are correspondingly matched and spliced with the rotating pins (1.1); unloading platform (5) are located the below of slide rail (3), and the mounting end fixed mounting of unloading platform (5) is in the side of magnetic force generator (2), and slide rail (3) are good at to the unloading end of unloading platform (5), and receiving bucket (6) have been placed to this unloading end top surface.

2. The magnetic deburring device for the titanium electrode plate as claimed in claim 1, characterized in that: a filter screen (6.1) for the steel needle to pass through is arranged in the material receiving barrel (6).

3. The magnetic deburring device for titanium electrode plates as claimed in claim 2, characterized in that: the filter screen (6.1) is conical, the tip end of the filter screen (6.1) faces the bung hole, and the area of a filter hole of the filter screen (6.1) is smaller than that of the titanium electrode plate.

4. The magnetic deburring device for the titanium electrode plate as claimed in claim 1, characterized in that: the tail end of the sliding rail (3) is provided with a block (3.1).

5. The magnetic deburring device for the titanium electrode plate as claimed in claim 1, characterized in that: the bottom surface of the tail end of the sliding rail (3) and the bottom surface of the blanking end of the blanking platform (5) are both provided with supporting columns (7).

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